Self-consistent mathematical model and simulation of carbon nanoparticle deposition from nonisothermal gas flow

The new mathematical model of nanoparticle deposition and correlated nanostructured film growth has been developed. It is shown that the Brownian diffusion determines the final deposition rate but thermophoresis can drastically enhance it. Qualitative estimations and simulation results of nanostructured film growth are presented. For relatively small nanoparticles, some morphological parameters of the film are calculated.